Duration of a Large Mafic Intrusion and Heat Transfer in the Lower Crust: a SHRIMP U-Pb Zircon Study in the Ivrea-Verbano Zone (Western Alps, Italy)

doi:10.1093/petrology/egm014

Journal of Petrology Advance Access originally published online on April 28, 2007
Journal of Petrology 2007 48(6):1185-1218; doi:10.1093/petrology/egm014

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Duration of a Large Mafic Intrusion and Heat Transfer in the Lower Crust: a SHRIMP U–Pb Zircon Study in the Ivrea–Verbano Zone (Western Alps, Italy)

G. Peressini¹^,2^,*, J. E. Quick³, S. Sinigoi¹, A. W. Hofmann² and M. Fanning⁴

¹Dipartimento Di Scienze Della Terra, Universita’ Di Trieste, Pal. N, Via Weiss 8, 34127, Trieste, Italy
²Max Planck Institut Für Chemie, Abt. Geochemie, Mainz, Germany
³US Geological Survey, Reston, VA 20192, USA
⁴Australian National University, Canberra, Act 0200, Australia

RECEIVED SEPTEMBER 1, 2006; ACCEPTED MARCH 7, 2007

Abstract

The Ivrea–Verbano Zone in the western Italian Alps containsone of the world's classic examples of ponding of mantle-derived,mafic magma in the deep crust. Within it, a voluminous, compositemafic pluton, the Mafic Complex, intruded lower-crustal, high-gradeparagneiss of the Kinzigite Formation during Permian–Carboniferoustime, and is now exposed in cross-section as a result of Alpineuplift. The age of the intrusion is still debated because theresults of geochronological studies in the last three decadeson different rock types and with various dating techniques rangefrom 250 to about 300 Ma. Sensitive high-resolution ion microprobe(SHRIMP) U–Pb zircon age determinations on 12 samplesfrom several locations within the Mafic Complex were performedto better constrain the age of the igneous event. The resultsindicate a long history of magma emplacement and cooling, whichreconciles the spread in previously published ages. The mainintrusive phase took place at 288 ± 4 Ma, causing a perturbationof the deep-crustal geotherm, which relaxed to the Sm–Ndclosure temperature in garnet-free mafic rocks after about 15–20Myr of sub-solidus cooling at c. 270 Ma. These results suggestthat large, deep crustal plutons, such as those identified geophysicallyat depths of 10–20 km within extended continental crust(e.g. Yellowstone, Rio Grande Rift, Basin and Range) may haveformed rapidly but induced a prolonged thermal perturbation.In addition, the data indicate that a significant thermal eventaffected the country rock of the Mafic Complex at about 310Ma. The occurrence of an upper amphibolite- to granulite-faciesthermal event in the Kinzigite Formation prior to the main intrusivephase of the Mafic Complex has been postulated by several workers,and is corroborated by other geochronological investigations.However, it remains uncertain whether this event (1) was partof a prolonged perturbation of the deep-crustal geotherm, whichstarted long before the onset of intrusion of the Mafic Complex,or (2) corresponded to the intrusion of the first sills of theMafic Complex, or (3) was related to an earlier, independentthermal pulse.

KEY WORDS: Ivrea–Verbano Zone; thermal evolution of continental crust; underplating; U–Pb SHRIMP geochronology; zircon

*Corresponding author. Telephone: 00390405582222. Fax: 390405582213. E-mail: peressin{at}units.it

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